Research on Lookahead Interpolation Algorithm Based on Cubic Polynomial Displacement Incremental Model

China Mechanical Engineering ›› 2013, Vol. 24 ›› Issue (08): 1066-1073.

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Research on Lookahead Interpolation Algorithm Based on Cubic Polynomial Displacement Incremental Model

Zhao Shiqiang1,2;Yu Dong2,3;Geng Cong1,2;Han Wenye3

1.Graduate University of Chinese Academy of Sciences,Beijing,100039
2.Shenyang Institute of Computing Technology,Chinese Academy of Science,Shenyang,110168
3.Shenyang Golding NC Technology Corporation,Ltd.,Shenyang,110168

Online:2013-04-25 Published:2013-05-08
Supported by:

National Science and Technology Major Project ( No. 2011ZX04016-071);
National Program on Key Basic Research Project (973 Program)（No. 2011CB302400）

三次多项式位移增量微段前瞻插补算法研究

赵世强1,2;于东2,3;耿聪1,2;韩文业3

1.中国科学院研究生院，北京，100039
2.中国科学院沈阳计算技术研究所，沈阳，110168
3.沈阳高精数控技术有限公司，沈阳，110168

基金资助:
国家科技重大专项(2011ZX04016-071)；国家重点基础研究发展计划（973计划)资助项目(2011CB302400)
National Science and Technology Major Project ( No. 2011ZX04016-071);
National Program on Key Basic Research Project (973 Program)（No. 2011CB302400）

Abstract

Abstract:

For the traditional S curve acceleration and deceleration control methods will result in starting/stopping frequently and low machining efficiency,the linear acceleration and deceleration control methods will result in strong machine tool vibration,
thus for machining micro line blocks, a lookahead algorithm was proposed based on cubic polynomial displacement incremental acceleration and deceleration control model. This algorithm divided into two stages, including program segments preprocess and real time interpolation. By linking of program segments, the planning for program segments was changed for program links during program segments preprocess stage. During real time stage, the interpolation compution was achieved by the obtained data information of program links. The machining process of some free-form surface was presented to validate the efficiency of the algorithm.

Key words: cubic polynomial, acceleration and deceleration control, high-speed machining, interpolation of micro line blocks

摘要：

针对采用传统的S曲线加减速控制方式对微小线段进行加工时会产生频繁启停且加工效率低,而现有直线加减速控制方式会产生加速度突变造成机床振动强烈等问题，提出一种基于三次多项式位移增量加减速控制的微段前瞻插补算法。该算法分为程序段预处理和实时插补两个阶段：在程序段预处理阶段，通过对程序段进行链接，将对程序段的规划转变为对程序链的规划，并给出程序链的相应信息;在实时插补阶段读取相应的程序链信息完成插补计算。通过对一自由曲面模型进行实际测试加工，证明了算法的有效性。

关键词: 三次多项式, 加减速控制, 高速加工, 微段插补

CLC Number:

TH16
TG65

DIAO Shi-Jiang-1, 2, XU Dong-2, 3, GENG Cong-1, 2, HAN Wen-Ye-3. Research on Lookahead Interpolation Algorithm Based on Cubic Polynomial Displacement Incremental Model[J]. China Mechanical Engineering, 2013, 24(08): 1066-1073.

赵世强1, 2, 于东2, 3, 耿聪1, 2, 韩文业3. 三次多项式位移增量微段前瞻插补算法研究[J]. 中国机械工程, 2013, 24(08): 1066-1073.

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Research on Lookahead Interpolation Algorithm Based on Cubic Polynomial Displacement Incremental Model

三次多项式位移增量微段前瞻插补算法研究

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